CN116353067A

CN116353067A - Optical lens piece pad pasting equipment

Info

Publication number: CN116353067A
Application number: CN202310628152.5A
Authority: CN
Inventors: 林金润; 肖小林
Original assignee: Ningde Weitu Intelligent Technology Co ltd
Current assignee: Ningde Weitu Intelligent Technology Co ltd
Priority date: 2023-05-31
Filing date: 2023-05-31
Publication date: 2023-06-30

Abstract

The invention discloses an optical lens film sticking device, which is used for sticking a film on a lens, wherein an upper cavity is formed in an upper cavity component on the film, and the bottom side of the upper cavity component is provided with an upper cavity opening; the lower cavity assembly is positioned below the upper cavity assembly, a lower cavity is formed in the lower cavity assembly, a lower cavity opening is formed in the top side of the lower cavity assembly, a lens carrier with the top surface for carrying lenses and diaphragms is arranged in the lower cavity, and the edges of the diaphragms on the lens carrier exceed the range of the lower cavity opening and the upper cavity opening; the pressing driving mechanism is connected with and drives the upper cavity component to lift so as to enable the diaphragm to be clamped between the upper cavity component and the lower cavity component in a sealing way after the diaphragm descends, and the upper cavity and the lower cavity are separated in a sealing way; the heating component is used for heating the membrane between the upper chamber and the lower chamber; the vacuum device is respectively and independently communicated with the upper chamber and the lower chamber so as to respectively and independently feed air or exhaust air to the upper chamber and the lower chamber. The invention can make the quality and efficiency of the lens film higher.

Description

Optical lens piece pad pasting equipment

Technical Field

The invention relates to the technical field of lens film sticking equipment, in particular to optical lens film sticking equipment.

Background

Part of the optical lenses need to be subjected to film pasting treatment, and the optical performance of the optical lenses is seriously affected by the quality of the film pasting.

The existing equipment for sticking films to planar or curved optical lenses is generally manufactured into profiling pressure heads or rollers which are matched with the surfaces of the optical lenses, films are placed on the optical lenses to be stuck with the films, then the pressure heads or rollers are used for pressing the films on the optical lenses, and then the films are stuck and stuck on the surfaces of the optical lenses.

Disclosure of Invention

The invention aims to provide an optical lens film sticking device which overcomes the defects and ensures that the quality and the efficiency of lens film sticking are higher.

To achieve the above object, the solution of the present invention is: an optical lens film sticking device is used for sticking a film on a lens and comprises an upper cavity assembly, a lower cavity assembly, a pressing driving mechanism, a heating assembly and a vacuum device;

an upper cavity is formed in the upper cavity assembly, and an upper cavity opening is formed in the bottom side of the upper cavity assembly;

the lower cavity assembly is positioned below the upper cavity assembly, a lower cavity is formed in the lower cavity assembly, a lower cavity opening is formed in the top side of the lower cavity assembly, a lens carrier with the top surface for carrying lenses and diaphragms is arranged in the lower cavity, and the edges of the diaphragms on the lens carrier exceed the range of the lower cavity opening and the upper cavity opening;

the pressing driving mechanism is connected with and drives the upper cavity component to lift so as to enable the diaphragm to be clamped between the upper cavity component and the lower cavity component in a sealing way after the diaphragm descends, and the upper cavity and the lower cavity are separated in a sealing way;

the heating component is used for heating a diaphragm between the upper cavity and the lower cavity, a transparent window is formed in the upper cavity component or the lower cavity component, the heating component is at least one of a laser heater, an infrared heater or a microwave heater, and the heating component is arranged outside the upper cavity component and the lower cavity component and is used for heating towards the diaphragm through the transparent window;

the vacuum device is respectively and independently communicated with the upper chamber and the lower chamber so as to respectively and independently feed air or exhaust air to the upper chamber and the lower chamber.

Further, the optical lens film sticking equipment further comprises a film feeding manipulator and a vision collecting device which are in communication connection with each other, wherein the film feeding manipulator is used for placing the film on the lens carrier, and the vision collecting device is used for collecting the pose of the film on the film feeding manipulator and the pose of the lens on the lens carrier.

Further, optical lens piece pad pasting equipment still includes the frame, upper chamber subassembly, lower chamber subassembly, pressfitting actuating mechanism, heating element, diaphragm material loading manipulator and vision acquisition facility all set up in the frame, still be provided with the diaphragm material loading microscope carrier in the frame, be used for bearing the diaphragm, the diaphragm material loading microscope carrier slides and sets up in the frame, and the one end of slip route is the snatch scope of diaphragm material loading manipulator, and the other end is frame limit portion.

Further, the lower cavity component is horizontally arranged on the frame in a sliding mode, one end of the sliding path is a grabbing range of the diaphragm feeding manipulator, and the other end of the sliding path is a frame edge.

Further, the optical lens film sticking equipment is also provided with a plasma cleaning component which blows air towards the top surface of the lens carrier.

After the scheme is adopted, the gain effect of the invention is as follows: the diaphragm is between last cavity and lower cavity, with last cavity and lower cavity seal separation, and the lens is located the cavity down, and vacuum apparatus can be to last cavity and lower cavity evacuation respectively to avoid the diaphragm to paste at lens in-process clamp air and impurity, soften the diaphragm through heating element heating, then make last cavity intake broken vacuum, can make the diaphragm down warp under the pressure differential promotion between last cavity and lower cavity, paste on the lens of below, the pad pasting is of high quality, and is efficient.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of a partial perspective view of the upper chamber assembly and lower chamber assembly of the present invention;

FIG. 3 is a schematic view of a partial perspective view of the upper chamber assembly and the lower chamber assembly of the present invention;

FIG. 4 is a schematic perspective view of the lower chamber assembly and the linear motor of the lower chamber assembly of the present invention;

fig. 5 is a schematic perspective view of a vision collecting device for collecting the pose of a lens on a lens carrier;

FIG. 6 is a schematic diagram of a three-dimensional structure of a membrane feeding manipulator according to the present invention;

FIG. 7 is a schematic diagram of a three-dimensional structure of a membrane loading stage according to the present invention;

FIG. 8 is a schematic diagram of a perspective structure of a vision collection device for collecting the pose of a diaphragm on a diaphragm feeding manipulator according to the present invention;

FIG. 9 is a schematic view of the inside of the film cavity at step S2 of the present invention;

FIG. 10 is a schematic view of the present invention in the cavity of the film at step S3.

Description of the reference numerals:

1-diaphragm, 2-lens, 3-main body, 4-vacuum device, 5-heating component, 6-film pasting cavity, 7-upper cavity, 8-lower cavity, 9-upper cavity component, 10-lower cavity component, 11-lens carrier, 12-press driving mechanism, 13-upper cavity opening, 14-lower cavity opening, 15-transparent window, 16-diaphragm feeding manipulator, 17-vision acquisition equipment, 18-rack, 19-diaphragm feeding carrier, 20-plasma cleaning component, 21-upper cavity component portal frame, 22-lower cavity component linear motor, 23-alignment platform, 24-sucker, 25-manipulator displacement driving mechanism, 26-diaphragm feeding carrier linear motor.

Detailed Description

The invention will be described in detail with reference to the accompanying drawings and specific embodiments.

The invention provides an optical lens film sticking device, as shown in fig. 1-10, which is used for sticking a film 1 on a lens 2, wherein the film sticking device is mainly shown in fig. 1 and 3 and comprises a frame 18, a main body 3, a pressing driving mechanism 12, a heating component 5, a film feeding manipulator 16 and a vision collecting device 17, wherein the main body 3, the pressing driving mechanism 12, the heating component 5, the film feeding manipulator 16 and the vision collecting device 17 are arranged on the frame 18, the optical lens film sticking device also comprises a vacuum device 4, the arrangement position of the vacuum device 4 is not particularly limited, in the embodiment, the vacuum device 4 is arranged beside the frame 18, and the parts arranged on the frame 18 can not be arranged on the frame 18;

as shown in fig. 3, 9 and 10, the main body 3 includes an upper cavity assembly 9 and a lower cavity assembly 10, an upper cavity 7 is formed in the upper cavity assembly 9, and an upper cavity opening 13 is formed at the bottom side of the upper cavity assembly 9, i.e. the upper cavity assembly 9 is in a groove shape with a downward opening; the lower cavity assembly 10 is positioned below the upper cavity assembly 9, a lower cavity 8 is formed in the lower cavity assembly 10, and a lower cavity opening 14 is formed in the top side of the lower cavity assembly 10, namely the lower cavity assembly 10 is in a groove shape with an upward opening;

the pressing driving mechanism 12 may be a pneumatic cylinder, an oil hydraulic cylinder or any other existing linear driving mechanism, the pressing driving mechanism 12 is connected to drive the upper cavity assembly 9 to lift, so that after the upper cavity assembly 9 and the lower cavity assembly 10 are assembled up and down to form the main body 3 after the upper cavity assembly 9 and the lower cavity assembly 10 are assembled up and down, the upper cavity opening 13 corresponds to the outline of the lower cavity opening 14, so that after the upper cavity assembly 9 and the lower cavity assembly 10 are assembled to form the main body 3, the upper cavity 7 and the lower cavity 8 form the film pasting cavity 6, a lens carrier 11 with a top surface for carrying the lens 2 and the diaphragm 1 is arranged in the lower cavity 8, the edge of the diaphragm 1 on the lens carrier 11 exceeds the range of the lower cavity opening 14 and the upper cavity opening 13, when the diaphragm 1 is placed on the lens carrier 11, the diaphragm 1 is clamped between the upper cavity assembly 9 and the lower cavity assembly 10 in a sealing manner, and the upper cavity 7 and the lower cavity 8 are separated in a sealing manner, so that a sealed cavity is formed; in a more specific embodiment, an upper cavity assembly gantry 21 is disposed on the frame 18, the upper cavity assembly 9 is disposed in the upper cavity assembly gantry 21, the pressing driving mechanism 12 is connected between the upper cavity assembly gantry 21 and the upper cavity assembly 9 to drive the upper cavity assembly 9 to lift on the gantry 21, the lower cavity assembly 10 is horizontally slidably disposed on the frame 18 through a lower cavity assembly linear motor 22, and a sliding path of the lower cavity assembly 10 passes through the upper cavity assembly gantry 21, so that the lower cavity assembly 10 can slide below the upper cavity assembly 9, in order to facilitate the placement of the lens 2 on the lens stage 11 for feeding, one end of the sliding path of the lower cavity assembly 10 is a side of the frame 18, in order to remove dust and impurities attached on the surface of the lens 2, a plasma cleaning assembly 20 facing the top surface of the lens stage 11 is further disposed, preferably, the plasma cleaning assembly 20 is disposed above the sliding path of the lower cavity assembly 10, so that when the lower cavity assembly 10 slides to the lower cavity assembly 10, the top surface of the lens stage 11 is blown toward the top surface of the lens stage 11, and the plasma cleaning assembly is carried by blowing gas toward the top surface of the lens stage 11;

the vacuum device 4 is a vacuum pump, and is respectively and independently communicated with the upper chamber 7 and the lower chamber 8, so that gas is respectively and independently fed into or pumped out from the upper chamber 7 and the lower chamber 8, and the vacuum device 4 can be any other existing device capable of pressurizing or depressurizing a closed cavity, and is not particularly limited;

the heating component 5 is used for heating the membrane 1 between the upper chamber 7 and the lower chamber 8, the heating component 5 can be any existing heating device, can be arranged in the upper chamber 7 and the lower chamber 8, can also be arranged outside the upper chamber 7 and the lower chamber 8, and preferably in the embodiment, in order to avoid the damage of the heating component 5 caused by the pressurization or depressurization in the upper chamber 7 and the lower chamber 8, the heating component 5 is arranged outside the upper chamber 7 and the lower chamber 8, is a space-free heating device capable of heating the membrane 1 in a space-free manner, and is more preferably at least one of a laser heater, an infrared heater or a microwave heater, a transparent window 15 is arranged on the upper chamber component 9 or the lower chamber component 10, and the heating component 5 is heated towards the membrane 1 through the transparent window 15.

In a preferred implementation, with emphasis on fig. 1 and 6, in order to align the optical axes of the membrane 1 and the lens 2 when the membrane 1 is placed on the lens carrier 11, the optical lens film pasting device further includes a membrane feeding manipulator 16 and a vision collecting device 17 which are connected in communication with each other, the membrane feeding manipulator 16 is used for placing the membrane 1 on the lens carrier 11, the sliding path of the lower cavity assembly 10 further includes a grabbing range of the membrane feeding manipulator 16, with emphasis on fig. 8, the vision collecting device 17 is used for collecting an image of the membrane 1 on the membrane feeding manipulator 16 to obtain a pose of the membrane 1 on the membrane feeding manipulator 16, with emphasis on fig. 5, and collecting an image of the lens 2 on the lens carrier 11 to obtain a pose of the lens 2 on the lens carrier 11, with emphasis on fig. 6, the membrane feeding manipulator 16 is mounted on the frame 18 through a manipulator displacement driving mechanism 25, the manipulator displacement driving mechanism 25 can be any existing mechanism for driving the manipulator to displace, and is used for driving the manipulator 16 to translate and lift, the feeding manipulator 16 sucks the membrane 1 through a sucker 24, an alignment platform 23 is arranged on the feeding manipulator 16, the alignment platform 23 drives the sucker 24 to move back and forth, left and right and rotate horizontally according to the pose of the membrane 1 on the membrane feeding manipulator 16 and the pose of the lens 2 on the lens carrier 11, so as to perform alignment adjustment, so that the optical axes on the membrane 1 and the lens 2 are aligned, preferably, in order to facilitate the feeding of the membrane 1, the frame 18 is further provided with a membrane feeding carrier 19 for bearing the membrane 1, the membrane feeding carrier 19 is slidably arranged on the frame 18 under the driving of a membrane feeding carrier linear motor 26, and one end of the sliding path is the grabbing range of the membrane feeding manipulator 16, and the other end is the edge of the frame 18, so that the membrane 1 is fed from the edge of the frame 18.

The working process comprises the following steps:

s1, firstly, the upper cavity component 9 is driven by the pressing driving mechanism 12 to be separated from the lower cavity component 10, the lower cavity component linear motor 22 drives the lower cavity component 10 to slide to the edge of the frame 18, the lens 2 is placed on the lens carrying platform 11, the diaphragm feeding carrying platform 19 slides to the edge of the frame 18, the diaphragm 1 is placed on the diaphragm feeding carrying platform 19, the diaphragm feeding carrying platform 19 slides to the grabbing range of the diaphragm feeding manipulator 16, the diaphragm feeding manipulator 16 sucks up the diaphragm 1, the lower cavity component linear motor 22 drives the lower cavity component 10 to slide to the grabbing range of the diaphragm feeding manipulator 16, the vision acquisition device 17 acquires images of the diaphragm 1 on the diaphragm feeding manipulator 16 and images of the lens 2 on the lens carrying platform 11 in the process, meanwhile, the plasma cleaning assembly 20 blows and cleans the surface of the lens 2 on the lens carrying table 11, the diaphragm feeding manipulator 16 performs position compensation, the diaphragm 1 is precisely placed above the lens 2 on the lens carrying table 11, the lower cavity assembly 10 is driven by the lower cavity assembly linear motor 22 to slide below the upper cavity assembly 9, the upper cavity assembly 9 and the lower cavity assembly 10 are driven by the pressing driving mechanism 12 to be combined, the upper cavity 7 and the lower cavity 8 are combined into the film pasting cavity 6, the diaphragm 1 is clamped between the upper cavity assembly 9 and the lower cavity assembly 10 so as to seal and separate the upper cavity 7 from the lower cavity 8, the upper cavity 7 and the lower cavity 8 are respectively vacuumized by the vacuum device 4 so as to remove air in the upper cavity 7 and the lower cavity 8, and air and impurities between the diaphragm 1 and the lens 2 are prevented from being mixed in the film pasting process;

s2, with emphasis on being combined with FIG. 9, the heating component 5 is used for heating and softening the membrane 1 at intervals;

s3, with emphasis on being combined with FIG. 10, the upper chamber 7 is subjected to air inlet and vacuum breaking through the vacuum device 4, so that the membrane 1 is pushed by air pressure in the upper chamber 7 to deform downwards and is adhered to the lens 2, positive air pressure is preferably introduced into the upper chamber 7 through the vacuum device 4, the upper chamber 7 is kept for a preset time after the air inlet and the vacuum breaking are carried out, then the upper chamber 7 and the lower chamber 8 are subjected to atmosphere pressure restoration, the upper chamber assembly 9 and the lower chamber assembly 10 are separated through the pressing driving mechanism 12, the lens 2 and the membrane 1 adhered to the lens 2 are taken out together, and the whole lens film adhering process is completed.

The above embodiments are only preferred embodiments of the present invention, and are not limited to the present invention, and all equivalent changes made according to the design key of the present invention fall within the protection scope of the present invention.

Claims

1. An optical lens film sticking device for sticking a film (1) on a lens (2), characterized in that: comprises an upper cavity component (9), a lower cavity component (10), a pressing driving mechanism (12), a heating component (5) and a vacuum device (4);

an upper cavity (7) is formed in the upper cavity assembly (9), and an upper cavity opening (13) is formed in the bottom side of the upper cavity assembly (9);

the lower cavity assembly (10) is positioned below the upper cavity assembly (9), a lower cavity (8) is formed in the lower cavity assembly (10), a lower cavity opening (14) is formed in the top side of the lower cavity assembly (10), a lens carrying platform (11) with the top surface used for carrying the lens (2) and the membrane (1) is arranged in the lower cavity (8), and the edge of the membrane (1) on the lens carrying platform (11) exceeds the range of the lower cavity opening (14) and the upper cavity opening (13);

the pressing driving mechanism (12) is connected with and drives the upper cavity assembly (9) to lift, so that the membrane (1) is tightly clamped between the upper cavity assembly (9) and the lower cavity assembly (10) after the membrane descends, and the upper cavity (7) and the lower cavity (8) are tightly separated;

the heating component (5) is used for heating the membrane (1) between the upper cavity (7) and the lower cavity (8), a transparent window (15) is formed in the upper cavity component (9) or the lower cavity component (10), the heating component (5) is at least one of a laser heater, an infrared heater or a microwave heater, and the heating component (5) is arranged outside the upper cavity component (9) and the lower cavity component (10) and is used for heating towards the membrane (1) through the transparent window (15);

the vacuum device (4) is respectively and independently communicated with the upper chamber (7) and the lower chamber (8) so as to respectively and independently feed air or exhaust air to the upper chamber (7) and the lower chamber (8).

2. An optical lens film sticking apparatus according to claim 1, wherein: the optical lens film sticking equipment further comprises a film feeding manipulator (16) and a vision acquisition device (17) which are in communication connection with each other, the film feeding manipulator (16) is used for placing the film (1) on the lens carrying platform (11), and the vision acquisition device (17) is used for acquiring the pose of the film (1) on the film feeding manipulator (16) and the pose of the lens (2) on the lens carrying platform (11).

3. An optical lens film sticking apparatus according to claim 2, wherein: the optical lens piece film sticking equipment further comprises a frame (18), the upper cavity assembly (9), the lower cavity assembly (10), the pressing driving mechanism (12), the heating assembly (5), the film feeding manipulator (16) and the vision acquisition equipment (17) are all arranged on the frame (18), the frame (18) is further provided with a film feeding carrying table (19) for carrying the film (1), the film feeding carrying table (19) is arranged on the frame (18) in a sliding mode, one end of a sliding path is a grabbing range of the film feeding manipulator (16), and the other end of the sliding path is a side part of the frame (18).

4. An optical lens film sticking apparatus according to claim 3, wherein: the lower cavity assembly (10) is horizontally arranged on the frame (18) in a sliding mode, one end of the sliding path is a grabbing range of the diaphragm feeding manipulator (16), and the other end of the sliding path is an edge of the frame (18).

5. An optical lens film sticking apparatus according to claim 1, wherein: the optical lens film sticking equipment is further provided with a plasma cleaning component (20) blowing air towards the top surface of the lens carrying platform (11).